UNIPROT:P43026 - FACTA Search

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Query: UNIPROT:P43026 (lipopolysaccharide)
62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The outer membrane of a phospholipase A-deficient mutant of Escherichia coli K12, isolated without the use of EDTA and lysozyme, showed the same freeze-fracture morphology as that seen in cells and remained stable for hours as observed by 31P-NMR. 2. 31P-NMR spectroscopy of the isolated outer membranes revealed that the lipopolysaccharide exists in the same physical state as in phospholipid-lipopolysaccharide liposomes and is most probably arranged in a bilayer at 37 degrees C. The outer membrane contains most or all of the phospholipids at 37 degrees C, and all the phospholipids at 20 degrees C, as a bilayer. 3. The 31P-NMR spectroscopy of the outer membranes from a mutant strain lacking the major outer membrane protein b, c and d (60% of the total outer membrane protein) yields virtually the same spectrum as the wild-type outer membranes, although most of the particles and pits which were observed in wild-type outer membranes in freeze-fracture electron microscopy were absent. 4. Whereas treatment of wild-type outer membranes with calcium ions has no effect on the 31P-NMR spectrum, treatment with EDTA results in more motion of the lipopolysaccharide.
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PMID:31P nuclear magnetic resonance and freeze-fracture electron microscopy studies on Escherichia coli. III. The outer membrane. 676 82

Examination of the localization of the dicarboxylate binding protein (DBP) in the cell envelope of Escherichia coli K12 reveals that this protein is present on the cell surface, and also in the inner and outer regions of the periplasmic space. The cell surface DBP is release by treating the cells with EDTA. This protein can be surface labeled by lactoperoxidase radioiodination, and by diazo[125I]iodosulfanilic acid in whole cells. It also binds tightly, but not covalently, to lipopolysaccharide. The DBP located in the outer region of the periplasmic space is released when the outer membrane is dissociated by EDTA-osmotic shock treatment. The DBP located in the inner region of the periplasmic space is released only when the EDTA-osmotic shocked cells are subjected to lysozyme treatment. At the moment, it is not certain whether this protein is bound to or trapped by the peptidoglycan network. This protein cannot be surface labeled in whole cells or in EDTA-osmotic shock treated cells; and it is not associated with lipopolysaccharide. Analysis of transport mutants indicates that these DBP are coded by the same gene.
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PMID:Localization of the dicarboxylate binding protein in the cell envelope of Escherichia coli K12. 678 Jan 68

1. Freeze-fracture electron microscopy and 31P-NMR spectroscopy on native and electrodialyzed lipopolysaccharide from Escherichia coli K12 cells, both above and below the phase transition temperature, are described. 2. Freeze-fracture electron microscopy of native lipopolysaccharide shows ribbon-like structures below (0 and 22 degrees C) and large vesicles above (37 degrees C) the phase transition temperature. Electrodialyzed lipopolysaccharide (sodium salt) occurs in ribbon-like structures at 0, 22 and 37 degrees C if sodium lipopolysaccharide is hydrated in water. If sodium lipopolysaccharide is hydrated in Tris-HCL/NaCl buffer these ribbon-like structures occur only below the phase transition temperature. Above the phase transition temperature stacked sheets are observed. Moreover, in the latter case, the fracture planes contain particles and pits. Upon etching, sodium lipopolysaccharide when hydrated in water appears to form rods and when hydrated in buffer appears to form mainly stacked lamellae both above (37 degrees C) and below (0 degrees C) the phase transition temperature. 3. High resolution 31P-NMR spectra show that the chemical shifts of the phosphorus atoms in native lipopolysaccharide differ from those in electrodialyzed lipopolysaccharide, probably due to conformational and compositional (the disappearance of ions and (poly)electrolytes) changes. The 31P-NMR spectra of native lipopolysaccharide dispersed in Tris-HCL/NaCl buffer are very broad at 20 and at 40 degrees C indicating little motion. At 22 degrees C electrodialyzed lipopolysaccharide also gives a broad spectrum; at 40 degrees C the spectrum is narrower, indicating more motion, and two peaks are visible. After dispersion in H2o and subsequent addition of buffer, the spectrum of electrodialyzed lipopolysaccharide is narrow both at 20 and 40 degrees C, which can be correlated with the rods observed in freeze etching. After treatment with Ca2+, electrodialyzed lipopolysaccharide shows a very broad spectrum at 40 degrees C probably due to immobilization of the lipopolysaccharide. 4. Freeze-fracture electron microscopy and 31P-NMR spectroscopy of liposomes consisting of native lipopolysaccharide and total phospholipids indicate that the phospholipids and the lipopolysaccharide are mainly organized in bilayers. Lipopolysaccharide in such liposomes undergoes more motion than in the absence of phospholipids. Ca2+ does not influence this behaviour.
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PMID:31P nuclear magnetic resonance and freeze-fracture electron microscopy studies on Escherichia coli. II. Lipopolysaccharide and lipopolysaccharide-phospholipid complexes. 699 Sep 86

Whole cells of Escherichia coli strains 0111, K12 and B as well as the ampicilln-resistant mutant K12 D21 and several lipopolysaccharide (LPS) mutants derived from this strain were analyzed for their molar LPS content per mg dry weight. An increase of the LPS concentration in some LPS mutants was substantiated by analyzing isolated cell walls and relating the molar LPS content to the murein subunit as measure of cell surface area. The increase of LPS was paralleled by increasing amounts of phospholipid while the overall protein content in the outer membrane decreased. According to the pattern of major outer membrane proteins in the various strains and the respective LPS structures, protein-LPS interactions are discussed as important requirements for outer membrane assembly and stability.
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PMID:Molecular composition of the outer membrane of Escherichia coli and the importance of protein-lipopolysaccharide interactions. 700 27

Primary infection of mice with Salmonella enteritidis 11RX (11RX) confers resistance to challenge with 10(4) LD50 doses of Ehrlich Ascites tumour (EAT). A lipopolysaccharide-free protein extract of 11RX is capable of eliciting delayed type hypersensitivity (DTH) reactions in these mice and of "recalling" tumour resistance in long-term 11RX immunised mice, which no longer exhibit any resistance to tumour challenge. In the present study, we have examined the ability of five other strains of Enterobacteriaceae to induce similar effects. Primary i.p. injection of S. chester, S. luton or S. typhimurium G30 into mice resulted in persisting infections and the induction of peritoneal exudate cells (PEC) which were tumouricidal in vitro. DTH reactions could also be elicited in these animals with protein extracts of the homologous or the 11RX strain of salmonella. S. friedenan and E. coli K12, which did not persist in mice, did not elicit tumouricidal PEC and did not sensitize mice for DTH reactions. However, protein extracts from all the five strains could elicit tumouricidal PEC and DTH reactions in long-term 11RX-immunised mice (but not in normal mice). The results imply that a wide range of Enterobacteriaceae may possess antigen(s) which can be involved in tumour resistance, provided that these antigen(s) are presented in such a way that a cellular immune response develops.
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PMID:Factors affecting the ability of various strains of Enterobacteriaceae to induce tumour resistance in mice. 700 36

Antisera were raised against the purified Escherichia coli K12 outer membrane proteins ompA-, ompC- and ompF proteins and protein e. Several immunological methods were used to investigate the specificity of the antisera and the immunological relationship between the major outer membrane proteins. Although the antisera had been raised against highly purified proteins, several of them contained activity against lipopolysaccharide and lipoprotein due to minor impurities in the immunogens. The three general porins ompF protein, ompC protein and protein e were shown to be cross-reactive. Anti-(ompA protein) serum only reacted with the homologous protein. None of these antisera reacted with the phage lambda receptor protein or with protein III. Pore protein preparations isolated from Salmonella typhimurium, Klebsiella aerogenes, Enterobacter cloaceae and Proteus mirabilis were found to be structurally related to the E. coli K12 porins as they reacted with the antisera raised against E. coli K12 porins.
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PMID:Antigenic relationships between pore proteins of Escherichia coli K12. 700 46

The heptose region of the lipopolysaccharide of Escherichia coli K12 CR34 was studied. The glucose linked to the heptose II was found to be substituted by a D-galactose and the linear chain of the core polysaccharide has two (1 lead to 3) linked heptoses. The heptose II is substituted by a lateral (1 leads to 7) linked heptose III and heptose I is linked in (1 leads to 5) to 2-deoxy-D-manno-octulosonic acid. The three sugars of the linear chain, heptose I, heptose II and glucose are substituted by phosphate, pyrophosphate or pyrophosphorylethanolamine group linked to C-4 hydroxyl groups. However, in some polysaccharidic chains one or two substituting groups may be absent. This result may explain the heterogeneity in the length of the core polysaccharidic chains.
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PMID:[Structure of the heptose region of the lipopolysaccharide from Escherichia coli K12 CR34 (author's transl)]. 701 98

Extant Escherichia coli K12 strains are phenotypically rough, their lipopolysaccharide having a complete core structure, but no O antigen. We used DNA hybridization and DNA sequencing to show that the rough phenotype of this strain is due to the presence of one of two independent mutations in the rfb gene cluster. The rfb-50 mutation, consisting of an IS5 insertion at the downstream end of rfb, is present in strain EMG2, which is representative of most K12 derivatives. The rfb-51 mutation is a deletion at the upstream end of rfb, and was found in strain WG1. A gene cloned from strain WG1 could complement the rfb-50 mutation in strain EMG2, and the complemented strain produced O antigen which was typed as O16 with cross reaction to O17.
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PMID:Escherichia coli K12 regains its O antigen. 751 72

Nitric oxide (NO) produced by endothelial cells (EC) has been shown to exert cytotoxic activity on tumor cells. In order to analyze events involved in brain metastasis, the modulation of NO production in rat-brain-derived EC was investigated. NO release was increased by tumor necrosis factor-alpha (TNF-alpha), interferon-gamma (IFN-gamma), interleukin-1 beta, lipopolysaccharide or forskolin in EC219 cells, a rat-brain-microvessel-derived EC line. Dexamethasone decreased NO release by cytokine-activated EC219 cells. Tumor cells (DHD/K12/PROb, a rat colon-carcinoma cell line) were highly adherent to EC219 cells, and adhesion was not modified by TNF-alpha plus IFN-gamma, or by dexamethasone. Addition of tumor cells or tumor-cell-conditioned medium significantly inhibited NO release induced by any of the stimuli examined, but only if added during the initial phase of endothelial-cell activation. Tumor-derived suppression of NO release was also observed in primary cultures of cerebral EC. NO synthase (NOS) activity in cytosol extracts of the cerebral EC line was Ca(2+)-independent and required both NADPH and tetrahydrobiopterin. NOS activity was increased by TNF-alpha and IFN-gamma, and significantly reduced by tumor-cell-conditioned medium. These results suggest that rat colon-carcinoma cells may have developed a protective mechanism involving the release of (a) soluble factor(s) which inhibit(s) NO production by cerebral EC.
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PMID:Tumor cells suppress cytokine-induced nitric-oxide (NO) production in cerebral endothelial cells. 752 97

Escherichia coli B, unlike both E. coli K12 and Salmonella typhimurium, is sensitive to the rough-specific phage C21. This sensitivity is probably due to the incomplete lipopolysaccharide core of the E. coli B cells, which confers on them a partial permeability to large molecules. Derivatives of WP2 uvrA, a tryptophan-requiring E. coli B strain, were rendered still more permeable by selecting for C21-resistant clones. The new permeable strains, when tested for mutagenesis induced by polycyclic hydrocarbons, showed a mutagenic response higher than that of the parental strains.
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PMID:Mutability by polycyclic hydrocarbons is improved in derivatives of Escherichia coli WP2 uvrA with increased permeability. 767 37

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